itkNarrowBand.h
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00017 #ifndef __itkNarrowBand_h
00018 #define __itkNarrowBand_h
00019
00020 #include "itkLightObject.h"
00021 #include "itkObjectFactory.h"
00022 #include <vector>
00023
00024 namespace itk {
00031 template <class TIndexType, class TDataType>
00032 class BandNode
00033 {
00034 public:
00035 TDataType m_Data;
00036 TIndexType m_Index;
00037 signed char m_NodeState;
00038 BandNode() { m_NodeState = 0; }
00039 };
00040
00041
00043 template <class NodeType>
00044 class ITK_EXPORT NarrowBand : public LightObject
00045 {
00046 public:
00048 typedef NarrowBand Self;
00049 typedef LightObject Superclass;
00050 typedef SmartPointer<Self> Pointer;
00051 typedef SmartPointer<const Self> ConstPointer;
00052
00054 itkNewMacro(Self);
00055
00057 itkTypeMacro(NarrowBand, LightObject);
00058
00059 typedef std::vector<NodeType> NodeContainerType;
00060 typedef typename NodeContainerType::size_type SizeType;
00061 typedef typename NodeContainerType::const_iterator ConstIterator;
00062 typedef typename NodeContainerType::iterator Iterator;
00063
00066 typedef struct RegionStruct
00067 {
00068 Iterator Begin;
00069 Iterator End;
00070 } RegionType;
00071
00074 #if !defined(CABLE_CONFIGURATION)
00075 std::vector<RegionType> SplitBand( unsigned int );
00076 #endif
00077
00078 Iterator Begin()
00079 {
00080 return m_NodeContainer.begin();
00081 }
00082 ConstIterator Begin() const
00083 {
00084 return m_NodeContainer.begin();
00085 }
00086 Iterator End()
00087 {
00088 return m_NodeContainer.end();
00089 }
00090 ConstIterator End() const
00091 {
00092 return m_NodeContainer.end();
00093 }
00094
00095 SizeType Size() const
00096 {
00097 return m_NodeContainer.size();
00098 }
00099 bool Empty() const
00100 {
00101 return m_NodeContainer.empty();
00102 }
00103
00105 void Clear()
00106 {
00107 m_NodeContainer.clear();
00108 }
00109 void Reserve( SizeType n)
00110 {
00111 m_NodeContainer.reserve( n );
00112 }
00113 void PushBack( const NodeType &n)
00114 {
00115 m_NodeContainer.push_back(n);
00116 }
00117 void PopBack()
00118 {
00119 m_NodeContainer.pop_back();
00120 }
00121 void Resize( SizeType n )
00122 {
00123 m_NodeContainer.resize(n);
00124 }
00126
00127 NodeType &operator[]( SizeType n )
00128 {
00129 return m_NodeContainer[n];
00130 }
00131 const NodeType& operator[](SizeType n) const
00132 {
00133 return m_NodeContainer[n];
00134 }
00135
00139 void SetTotalRadius(float val) { m_TotalRadius = val;}
00140
00141 float GetTotalRadius(){return m_TotalRadius;}
00142
00145 void SetInnerRadius(float val) { m_InnerRadius = val;}
00146
00147 float GetInnerRadius() { return m_InnerRadius;}
00148
00149
00150 protected:
00151 NarrowBand() {m_TotalRadius = 0.0; m_InnerRadius = 0.0;}
00152 float m_TotalRadius;
00153 float m_InnerRadius;
00154
00155 private:
00156 NarrowBand(const Self&);
00157 void operator=(const Self&);
00158 NodeContainerType m_NodeContainer;
00159
00160 };
00161
00162 }
00163
00164 #ifndef ITK_MANUAL_INSTANTIATION
00165 #include "itkNarrowBand.txx"
00166 #endif
00167
00168 #endif
00169